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Ontogeny of the spinal cord dorsal horn

R. Brian Roome, Archana Yadav, Lydia Flores, Amrit Kaur Puarr, Diana Nardini, Alexander Richardson, Ronald R. Waclaw, Ruth M. Arkell, Vilas Menon, Jane E. Johnson, Ariel J. Levine

2026Science9 citationsDOIOpen Access PDF

Abstract

The dorsal horn of the mammalian spinal cord is organized into laminae where each layer is populated by different neuron types, has distinctive circuit connections, and plays specialized roles in behavior. An outstanding question is how this organization emerges during development from an apparently homogeneous pool of neural progenitors. Here, we show that mouse dorsal neurons are diversified by time, with families of related cell types born as temporal cohorts, and by a spatial-molecular gradient that specifies individual cell types. Excitatory neurons settle into a chronotopic arrangement that transforms their progressive birthdates into anatomical order and is required to establish proper laminae. We identified essential ontogenetic principles that shape dorsal progenitors into the diverse cell types and structure that subserve sensorimotor function.

Topics & Concepts

OntogenySpinal cordNeuroscienceBiologyAnatomyDorsumFrench hornExcitatory postsynaptic potentialNeuronHomogeneousCell typeInhibitory postsynaptic potentialProgenitor cellOrder (exchange)GDF7Cell bodiesNeural cellNervous systemCentral nervous systemCordProgenitorElectrophysiologyDevelopmental Biology and Gene RegulationNeurogenesis and neuroplasticity mechanismsAxon Guidance and Neuronal Signaling
Ontogeny of the spinal cord dorsal horn | Litcius